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High-pressure effects in molecular biophysics and enzymology / edited by John L. Markley, Dexter B. Northrop, Catherine A. Royer.

Contributor(s): Material type: TextTextPublication details: New York : Oxford University Press, 1996.Description: 1 online resource (xiv, 381 pages) : illustrationsContent type:
  • text
Media type:
  • computer
Carrier type:
  • online resource
ISBN:
  • 1423734807
  • 9781423734802
  • 0195344626
  • 9780195344622
  • 9780195097221
  • 019509722X
  • 1280451319
  • 9781280451317
  • 9786610451319
  • 6610451311
  • 1602566348
  • 9781602566347
Subject(s): Genre/Form: Additional physical formats: Print version:: High-pressure effects in molecular biophysics and enzymology.DDC classification:
  • 574.19/25 20
LOC classification:
  • QP517.H453 H54 1996eb
NLM classification:
  • 1996 K-077
  • QU 34
Online resources:
Contents:
Contributors; 1. Resolution of the Ambiguity of van't Hoff Plots by the Effect of Pressure on the Equilibrium; 2. Pressure-Tuning Spectroscopy: A Tool for Investigating Molecular Interactions; 3. Use of Partial Molar Volumes of Model Compounds in the Interpretation of High-Pressure Effects, on Proteins; 4. Pressure-Tuning Spectroscopy of Proteins: Fourier Transform Infrared Studies in the Diamond Anvil Cell; 5. Temperature- and Pressure-Induced Unfolding of a Mutant of Staphylococcal Nuclease A
6. Pressure-Jump Relaxation Kinetics of Unfolding and Refolding Transitions of Staphylococcal Nuclease and Proline Isomerization Mutants7. High-Pressure FTIR Studies of the Secondary Structure of Proteins; 8. High-Pressure NMR Studies of the Dissociation of Arc Repressor and the Cold Denaturation of Ribonuclease A; 9. Exploring Structural, Functional, and Kinetic Aspects of Nucleic Acid-Protein Complexes with Pressure: Nucleosomes and RNA Polymerase; 10. Pressure and Cold Denaturation of Proteins, Protein-DNA Complexes, and Viruses
11. Sequence, Salt, Charge, and the Stability of DNA at High Pressure12. Application of Pressure Relaxation to the Study of Substrate Binding to Cytochrome P-450[sub(CAM)] versus Temperature, Pressure, and Viscosity; 13. Pressure Effects on the Ligand-Binding Kinetics for Hemoproteins and Their Site-Directed Mutants; 14. Transient Enzyme Kinetics at High Pressure; 15. Steady-State Enzyme Kinetics at High Pressure; 16. Effects of High Pressure on the Allosteric Properties of Phosphofructokinase from Escherichia coli
17. Correlation Field Splitting of Chain Vibrations: Structure and Dynamics in Lipid Bilayers and Biomembranes18. High-Pressure Effects on the Structure and Phase Behavior of Model Membrane Systems; 19. Membrane-Free Volume Variation with Bulky Lipid Concentration by Regular Distribution: A Functionally Important Membrane Property Explored by Pressure Studies of Phosphatidylcholine Bilayers; 20. NMR Studies of the Order and Dynamics of Dipalmitoylphosphatidylcholine Bilayers as a Function of Pressure; 21. Effects of Increased Viscosity on the Function of Integral Membrane Proteins
22. Pressure- and Temperature-Induced Inactivation of Microorganisms23. Osmotic and Hydrostatic Pressure as Tools to Study Molecular Recognition; Index
Summary: High Pressure Effects in Molecular Biophysics and Enzymology is designed to acquaint biochemists, biophysicists, and graduate students with advances in the application of high pressure in connection with spectroscopy as a research tool in the study of biomolecules. The 23 chapters written by leading authorities present an overview of current approaches to the use of high pressure in research on enzyme kinetics, protein folding and structure, lipid bilayer structure and organization, lipid-protein interaction, and DNA structure. This important, timely volume is the first devoted exclusively to.
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Includes bibliographical references and index.

Print version record.

Contributors; 1. Resolution of the Ambiguity of van't Hoff Plots by the Effect of Pressure on the Equilibrium; 2. Pressure-Tuning Spectroscopy: A Tool for Investigating Molecular Interactions; 3. Use of Partial Molar Volumes of Model Compounds in the Interpretation of High-Pressure Effects, on Proteins; 4. Pressure-Tuning Spectroscopy of Proteins: Fourier Transform Infrared Studies in the Diamond Anvil Cell; 5. Temperature- and Pressure-Induced Unfolding of a Mutant of Staphylococcal Nuclease A

6. Pressure-Jump Relaxation Kinetics of Unfolding and Refolding Transitions of Staphylococcal Nuclease and Proline Isomerization Mutants7. High-Pressure FTIR Studies of the Secondary Structure of Proteins; 8. High-Pressure NMR Studies of the Dissociation of Arc Repressor and the Cold Denaturation of Ribonuclease A; 9. Exploring Structural, Functional, and Kinetic Aspects of Nucleic Acid-Protein Complexes with Pressure: Nucleosomes and RNA Polymerase; 10. Pressure and Cold Denaturation of Proteins, Protein-DNA Complexes, and Viruses

11. Sequence, Salt, Charge, and the Stability of DNA at High Pressure12. Application of Pressure Relaxation to the Study of Substrate Binding to Cytochrome P-450[sub(CAM)] versus Temperature, Pressure, and Viscosity; 13. Pressure Effects on the Ligand-Binding Kinetics for Hemoproteins and Their Site-Directed Mutants; 14. Transient Enzyme Kinetics at High Pressure; 15. Steady-State Enzyme Kinetics at High Pressure; 16. Effects of High Pressure on the Allosteric Properties of Phosphofructokinase from Escherichia coli

17. Correlation Field Splitting of Chain Vibrations: Structure and Dynamics in Lipid Bilayers and Biomembranes18. High-Pressure Effects on the Structure and Phase Behavior of Model Membrane Systems; 19. Membrane-Free Volume Variation with Bulky Lipid Concentration by Regular Distribution: A Functionally Important Membrane Property Explored by Pressure Studies of Phosphatidylcholine Bilayers; 20. NMR Studies of the Order and Dynamics of Dipalmitoylphosphatidylcholine Bilayers as a Function of Pressure; 21. Effects of Increased Viscosity on the Function of Integral Membrane Proteins

22. Pressure- and Temperature-Induced Inactivation of Microorganisms23. Osmotic and Hydrostatic Pressure as Tools to Study Molecular Recognition; Index

High Pressure Effects in Molecular Biophysics and Enzymology is designed to acquaint biochemists, biophysicists, and graduate students with advances in the application of high pressure in connection with spectroscopy as a research tool in the study of biomolecules. The 23 chapters written by leading authorities present an overview of current approaches to the use of high pressure in research on enzyme kinetics, protein folding and structure, lipid bilayer structure and organization, lipid-protein interaction, and DNA structure. This important, timely volume is the first devoted exclusively to.

English.

WorldCat record variable field(s) change: 650

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